CN111782445B - Configuration method and device of equipment debugging environment - Google Patents

Configuration method and device of equipment debugging environment Download PDF

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Publication number
CN111782445B
CN111782445B CN202010599471.4A CN202010599471A CN111782445B CN 111782445 B CN111782445 B CN 111782445B CN 202010599471 A CN202010599471 A CN 202010599471A CN 111782445 B CN111782445 B CN 111782445B
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test equipment
developer
configuration
sending
information
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CN111782445A (en
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焦家传
曹洪伟
陈振涛
王芃
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Baidu Online Network Technology Beijing Co Ltd
Shanghai Xiaodu Technology Co Ltd
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Beijing Baidu Netcom Science and Technology Co Ltd
Shanghai Xiaodu Technology Co Ltd
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Priority to CN202010599471.4A priority Critical patent/CN111782445B/en
Publication of CN111782445A publication Critical patent/CN111782445A/en
Priority to US17/127,869 priority patent/US20210406155A1/en
Priority to JP2020217617A priority patent/JP2022008782A/en
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/36Preventing errors by testing or debugging software
    • G06F11/3664Environments for testing or debugging software
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/22Detection or location of defective computer hardware by testing during standby operation or during idle time, e.g. start-up testing
    • G06F11/26Functional testing
    • G06F11/273Tester hardware, i.e. output processing circuits
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/22Detection or location of defective computer hardware by testing during standby operation or during idle time, e.g. start-up testing
    • G06F11/2247Verification or detection of system hardware configuration
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/36Preventing errors by testing or debugging software
    • G06F11/362Software debugging
    • G06F11/3648Software debugging using additional hardware

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • Quality & Reliability (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Debugging And Monitoring (AREA)
  • Stored Programmes (AREA)

Abstract

The embodiment of the application discloses a configuration method and a configuration device of an equipment debugging environment, relates to the computer technology, and particularly relates to the technical field of remote interaction and testing. The specific implementation scheme is as follows: acquiring a test equipment identifier; transmitting a configuration confirmation message to the test equipment corresponding to the test equipment identifier, so that the test equipment responds to the confirmation operation of a developer on the configuration confirmation message and transmits a request message of a debugging environment adapted to the test equipment to the configuration server; and responding to the request message, and sending the debugging environment to the test equipment for the configuration of the test equipment. The embodiment of the application can automatically configure the debugging environment on line, reduce the cost of developers and shorten the test period.

Description

Configuration method and device of equipment debugging environment
Technical Field
The application relates to the computer technology, in particular to the technical field of remote interaction and testing.
Background
When testing some devices, a debugging environment matched with the device needs to be carried to finish the test, and online use is issued.
Generally, in order to ensure the security of the device, the provider needs to send the device with the adapted debug environment to the tester for the tester to test. The off-line shipping method increases the cost to the vendor and the testing period for the tester.
Disclosure of Invention
The embodiment of the application provides a configuration method and a device for a device debugging environment, and further provides a configuration server, test equipment and a readable storage medium.
In a first aspect, an embodiment of the present application provides a configuration method of a device debug environment, which is applicable to a configuration server, including:
acquiring a test equipment identifier;
transmitting a configuration confirmation message to the test equipment corresponding to the test equipment identifier, so that the test equipment responds to the confirmation operation of a developer on the configuration confirmation message and transmits a request message of a debugging environment adapted to the test equipment to the configuration server;
and responding to the request message, and sending the debugging environment to the test equipment for the configuration of the test equipment.
In a second aspect, an embodiment of the present application provides another method for configuring a device debug environment, which is applicable to a test device, and includes:
receiving a configuration confirmation message sent by a configuration server;
responding to the confirmation operation of the developer on the configuration confirmation message, sending a request message of a debugging environment adapted to the test equipment to the configuration server, so that the configuration server can respond to the request message and send the debugging environment to the test equipment;
And receiving the debug environment returned by the configuration server and configuring the debug environment.
In a third aspect, an embodiment of the present application provides a configuration apparatus of a device debug environment, which is applicable to a configuration server, including:
the acquisition module is used for acquiring the test equipment identifier;
a first sending module, configured to send a configuration confirmation message to a test device corresponding to the test device identifier, so that the test device responds to a confirmation operation of a developer on the configuration confirmation message, and sends a request message of a debug environment adapted to the test device to the configuration server;
and the second sending module is used for responding to the request message and sending the debugging environment to the test equipment so as to enable the test equipment to be configured.
In a fourth aspect, an embodiment of the present application provides another configuration apparatus for a device debug environment, which is suitable for testing a device, and includes:
the first receiving module is used for receiving the configuration confirmation message sent by the configuration server;
a sending module, configured to send a request message of a debug environment adapted to the test device to the configuration server in response to a confirmation operation of the developer on the configuration confirmation message, so that the configuration server sends the debug environment to the test device in response to the request message;
The second receiving module is used for receiving the debugging environment returned by the configuration server and configuring the debugging environment.
In a fifth aspect, an embodiment of the present application provides a configuration server, including:
at least one processor; and
a memory communicatively coupled to the at least one processor; wherein,,
the memory stores instructions executable by the at least one processor to enable the at least one processor to perform a method of configuring a device debug environment as described in any of the embodiments.
In a sixth aspect, an embodiment of the present application provides a test apparatus, including:
at least one processor; and
a memory communicatively coupled to the at least one processor; wherein,,
the memory stores instructions executable by the at least one processor to enable the at least one processor to perform a method of configuring a device debug environment as described in any of the embodiments.
In a seventh aspect, embodiments of the present application provide a non-transitory computer-readable storage medium storing computer instructions for causing a computer to perform a method of configuring a device debug environment provided by any of the embodiments.
The technology can automatically configure the debugging environment on line, reduce the cost of developers and shorten the test period.
It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the disclosure, nor is it intended to be used to limit the scope of the disclosure. Other features of the present disclosure will become apparent from the following specification.
Drawings
The drawings are included to provide a better understanding of the present application and are not to be construed as limiting the application. Wherein:
FIG. 1a is a schematic diagram of a configuration system of a device debug environment in an embodiment of the present application;
FIG. 1b is a flow chart of a method of configuring a first device debug environment in an embodiment of the present application;
FIG. 2a is a schematic diagram of a configuration system of another device commissioning environment in an embodiment of the present application;
FIG. 2b is a flow chart of a method of configuring a second device debug environment in an embodiment of the present application;
FIG. 3a is a schematic diagram of a configuration system of yet another device commissioning environment in an embodiment of the present application;
FIG. 3b is a flow chart of a method of configuring a third device debug environment in an embodiment of the present application;
FIG. 4a is a schematic diagram of a configuration system of yet another device commissioning environment in an embodiment of the present application;
FIG. 4b is a flow chart of a method of configuring a fourth device debug environment in an embodiment of the present application;
FIG. 5 is a flow chart of a method of configuring a fifth device debug environment in an embodiment of the present application;
FIG. 6 is a block diagram of a configuration apparatus of a device debug environment in an embodiment of the present application;
FIG. 7 is a block diagram of a configuration apparatus of another device debug environment in an embodiment of the present application;
fig. 8 is a block diagram of a configuration server in an embodiment of the present application.
Detailed Description
Exemplary embodiments of the present application will now be described with reference to the accompanying drawings, in which various details of the embodiments of the present application are included to facilitate understanding, and are to be considered merely exemplary. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the application. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.
In order to clearly describe the embodiments of the present application, first, a system to which the configuration method of the device debug environment in the embodiments of the present application is applicable will be briefly described. Fig. 1a is a schematic structural diagram of a configuration system of a device debugging environment in an embodiment of the present application, and as shown in fig. 1a, the system includes a configuration server 10 and a test device 20.
Wherein the number of test devices 20 is at least one, a debug environment is required to complete the test, and online use is issued. Alternatively, the test device 20 is an intelligent voice device, and embedded software is required to be implanted on the intelligent voice device, and the embedded software is run to cooperate with Web services on the network side to realize functions. Based on the above, when the intelligent voice equipment performs the function test, the intelligent voice equipment needs to configure a debugging environment matched with the intelligent voice equipment to complete the function test.
The configuration server may be a single server or a cluster of multiple servers, and may be configured in the cloud. The configuration server stores the debug environments respectively adapted to the plurality of test devices 20 and provides the adapted debug environments to the respective test devices 20 by remotely interacting with the respective test devices 20.
FIG. 1b is a flow chart of a method of configuring a first device debug environment in an embodiment of the present application, which is applicable to providing a debug environment that is adapted to a test device. The method is executed by a configuration device of the equipment debugging environment, and the device is realized by software and/or hardware and is specifically configured in a configuration server with certain data operation capability.
A method of configuring a device debug environment as shown in fig. 1 b. Comprising the following steps:
s110, acquiring a test equipment identifier.
The test device identifier is used to uniquely represent a test device, such as a model Number and a product SN (Serial Number) of the test device. The test equipment in the embodiment does not need a developer to configure a debugging environment in advance, does not need mailing of the developer, can widen a purchase channel and a transportation channel, and saves the cost of the developer for sending the equipment.
The application does not limit the source of the test equipment identification, and can be derived from a local storage space or external input. Optionally, the configuration server stores in advance the test device identifier of at least one test device, and selects a test device identifier from the test device identifiers.
And S120, sending a configuration confirmation message to the test equipment corresponding to the test equipment identifier so that the test equipment can respond to the confirmation operation of the developer on the configuration confirmation message and send a request message of the debugging environment adapted to the test equipment to the configuration server.
The configuration server stores the network address of the test equipment in advance, and after determining the test equipment, sends a configuration confirmation message according to the network address. The configuration confirmation message is used to confirm the test device, i.e. to confirm that the device that needs to configure the debug environment is the test device, but not the other test devices.
And after receiving the configuration confirmation message, the test equipment displays the configuration confirmation message. For example, a display screen is configured on the test device, and a configuration confirmation message is displayed on the display screen so that the developer can learn.
After the test equipment displays the configuration confirmation message, the configuration server is explained that the test equipment is primarily confirmed through the test equipment identifier, and a developer is also required to secondarily confirm the test equipment. The developer triggers a validation operation on the test equipment for the configuration validation message. The configuration confirmation message is illustratively a configuration confirmation message of the test device, such as "whether to configure the debug environment of the present test device". The validation operation is a trigger operation of a control or button indicating a "yes" meaning, thereby performing a secondary validation on the test apparatus.
The test equipment responds to the confirmation operation of the developer on the configuration confirmation message, and if enough capacity is locally determined that the secondary confirmation passes, the test equipment sends a request message of the debugging environment adapted to the test equipment to the configuration server, wherein the request message is used for requesting the configuration server to directly issue the debugging environment. If the local has insufficient capability to judge whether the secondary acknowledgement passes, the request message sent to the configuration server should also include an acknowledgement operation for the configuration server to judge whether the secondary acknowledgement passes.
S130, responding to the request message, and sending a debugging environment to the test equipment for the test equipment to configure.
According to the above description, optionally, if the request message is used to request the configuration server to directly issue the debug environment, directly sending the debug environment adapted thereto to the test device; and if the request information comprises the confirmation operation, sending the debugging environment to the test equipment after the secondary confirmation is judged to pass according to the confirmation operation. And if the test equipment or the configuration server judges that the secondary confirmation is not passed, canceling the configuration operation of the debugging environment.
Considering that the configuration server communicates with the test equipment remotely, the configuration server sends the debug environment to the test equipment by way of OTA (Over the Air).
Alternatively, the debug environment may comprise a complete installation package or upgrade package of the debug environment. If the test equipment is configured with the debugging environment, an upgrade package can be sent to the test equipment, and the test equipment runs the upgrade package to upgrade the original debugging environment; if the test equipment is not configured with the debug environment, a complete installation package can be sent to the test equipment, and the test equipment runs the complete installation package to configure the debug environment for the first time.
In the embodiment, the configuration server issues the debugging environment through remote interaction with the test equipment, so that the online dynamic configuration of the debugging environment is realized, and the method is simple and efficient; meanwhile, the developer is not required to send equipment with configured debugging environment, and the cost of the developer is saved. The safety of the test equipment is improved by confirming the test equipment twice through the test equipment identification and the confirmation operation of the developer on the configuration confirmation message, and the configuration of other unrelated test equipment is avoided; in the whole process, a developer needs to carry out confirmation operation on the configuration confirmation message to trigger the issuing of the debugging environment, and other service personnel are not needed to participate, so that the full-process self-service is realized, the time cost is saved, and the test period is shortened.
Fig. 2a is a schematic structural diagram of a configuration system of another device debugging environment in an embodiment of the present application, and fig. 2a further includes a terminal 30 based on fig. 1 a. The terminal 30 may be a smart phone, desktop, smart watch, etc. An open platform provided by the configuration server may be logged in through the terminal 30 to interact with the configuration server.
Fig. 2b is a flowchart of a second configuration method of a device debug environment in an embodiment of the present application, where the process of testing device identification is further optimized based on the technical solutions of the embodiments described above. In connection with fig. 2a, the configuration method of the device debug environment shown in fig. 2b includes:
S210, receiving a test equipment identifier sent by the terminal, wherein the test equipment identifier is input to the terminal by a developer.
When a developer needs to configure the debugging environment of a certain test device, the test device identification of the test device is input to the terminal. Specifically, the developer provides developer information (such as an identification card number or name, etc.) to register on the open platform, including personal registration and enterprise registration. Optionally, after registration is completed, the test device identifier is input in the open platform and is bound with developer information.
The developer performs a configuration validation operation on the test equipment, for example, entering a test equipment identification at the open platform and clicking on a configuration validation option. And the terminal responds to the configuration confirmation operation of the developer on the test equipment, extracts the test equipment identification input by the developer, and sends the test equipment identification to the configuration server. Further, the configuration server receives the test equipment identifier sent by the terminal.
S220, sending a configuration confirmation message to the test equipment corresponding to the test equipment identifier, so that the test equipment responds to the confirmation operation of the developer on the configuration confirmation message and sends a request message of the debugging environment adapted to the test equipment to the configuration server.
S230, responding to the request message, and sending a debugging environment to the test equipment for the test equipment to configure.
In the embodiment, the developer can send the test equipment identifier to the configuration server through the terminal, so that the configuration operation on a certain test equipment is actively initiated and determined, and the autonomy of the developer is improved.
FIG. 3a is a schematic diagram of a configuration system of yet another device commissioning environment in an embodiment of the present application, comprising: a configuration server 10, a test device 20 and a terminal 30. The specific structure is detailed in the description of the above embodiments, and will not be repeated here.
Fig. 3b is a flowchart of a third configuration method of a device debug environment in an embodiment of the present application, where the process of sending a configuration confirm message is further optimized based on the technical solutions of the foregoing embodiments. With reference to fig. 3a, the configuration method of the device debug environment shown in fig. 3b includes:
s310, acquiring a test equipment identifier.
Optionally, the test equipment identifier sent by the terminal is received, and the test equipment identifier is input to the terminal by the developer.
S320, developer information bound with the test equipment identification is obtained.
S330, sending first verification information to a developer corresponding to the developer information, and sending an input message of the first verification information to the test equipment corresponding to the test equipment identifier, so that the test equipment responds to the operation of inputting second verification information by the developer, and sending a request message of a debugging environment adapted to the test equipment to the configuration server.
Wherein, the first verification information is sent to the developer or the terminal. Optionally, in one case, the network address of the terminal held by the developer information is stored in advance, and the first verification information is sent according to the network address of the terminal held. In another case, the test equipment identifier is received from the terminal, and the first verification information is directly returned to the terminal. Alternatively, the first authentication information may be a random code, such as a string of numbers.
For convenience of description and distinction, the verification information transmitted from the configuration server is referred to as first verification information, and the verification information input to the test device by the developer is referred to as second verification information. The transmission order of the first verification information and the input information of the first verification information is not limited, and the first verification information may be transmitted first and then the input information of the first verification information may be transmitted; or firstly transmitting the input information of the first verification information, and then transmitting the first verification information; or the first authentication information and the input information of the first authentication information are transmitted in parallel.
And after the terminal receives the first verification information, displaying the first verification information on a screen of the terminal so as to enable a developer to know the first verification information. After receiving the input message of the first verification information, the testing equipment displays an input box of the first verification information on a screen of the testing equipment for the developer to input. If the test equipment identification is correct, the developer can successfully receive the first verification information and then input the first verification information correctly; if the test equipment identification is wrong, the developer does not receive the first verification information and further inputs the error.
The test device transmits a request message including the second authentication information to the configuration server in response to an operation of the developer inputting the second authentication information.
S340, extracting second verification information input by the developer from the request message.
S350, if the second verification information is matched with the first verification information, sending a debugging environment to the test equipment.
When the configuration server judges that the second verification information is matched with the first verification information, for example, the first verification information is identical with the second verification, the second verification passes, and a debugging environment is sent to the test equipment; and when the second verification information is not matched with the first verification information, the secondary confirmation is not passed, and the configuration operation of the debugging environment is canceled.
In this embodiment, the binding relationship between the test device identifier and the developer information is stored in the configuration server, and the configuration server determines whether the verification information is matched, so as to perform dual confirmation on the developer and the test device, and fully ensure the security of the test device.
FIG. 4a is a schematic diagram of a configuration system of yet another device commissioning environment in an embodiment of the present application, comprising: a configuration server 10, a test device 20 and a terminal 30. The specific structure is detailed in the description of the above embodiments, and will not be repeated here.
Fig. 4b is a flowchart of a configuration method of a fourth device debug environment in an embodiment of the present application, where the process of sending a configuration confirm message is further optimized based on the technical solutions of the foregoing embodiments. With reference to fig. 4a, the configuration method of the device debug environment shown in fig. 4b includes:
s410, acquiring a test equipment identifier.
Optionally, the test equipment identifier sent by the terminal is received, and the test equipment identifier is input to the terminal by the developer.
S420, sending an identity verification message of a developer to the test equipment corresponding to the test equipment identifier, so that the test equipment responds to the operation of inputting the identity information by the developer and sends a request message of a debugging environment adapted to the test equipment to the configuration server.
The developer inputs developer information on the test equipment in advance, and then the test equipment establishes a binding relation between the developer information and the test equipment identification. The authentication message of the developer is, for example, "please input developer information bound to the device".
After receiving the identity verification message, the test equipment displays an input box of the identity verification message on a screen of the test equipment so as to prompt a developer to input identity information. If the test equipment identification is correct, the test equipment can successfully receive the identity verification message; meanwhile, when the developer has a binding relation with the test equipment, correct developer information can be input; if the test equipment identification is wrong, the test equipment does not receive the identity verification message; alternatively, even if the test device successfully receives the authentication message, the developer at this time is not the developer bound to the test device, and does not input the correct developer information.
The test equipment responds to the operation of inputting identity information by the developer, and obtains developer information bound with the test equipment identifier; judging whether the identity information input by the developer is matched with the developer information or not locally, and if so, sending a request message of a debugging environment matched with the test equipment to a configuration server; if not, canceling the configuration operation of the debugging environment.
S430, responding to the request message, and sending a debugging environment to the test equipment for the test equipment to configure.
And as the test equipment determines that the secondary confirmation passes, the configuration server directly sends the debugging environment to the test equipment.
In this embodiment, the binding relationship between the test device identifier and the developer information is stored in the test device, and the test device determines whether the identity information is matched with the developer information, so as to perform dual confirmation on the developer and the test device, thereby fully ensuring the security of the test device.
Fig. 5 is a flowchart of a configuration method of a fifth device debug environment in an embodiment of the present application, which is applicable to the case where a debug environment is requested from a configuration server. The method is executed by a configuration device of the equipment debugging environment, and the device is realized by software and/or hardware and is specifically configured in test equipment with certain data operation capability.
A method of configuring a device debug environment as shown in fig. 5. Comprising the following steps:
s510, receiving a configuration confirmation message sent by the configuration server.
S520, responding to the confirmation operation of the developer on the configuration confirmation message, sending a request message of the debugging environment adapted to the test equipment to the configuration server, so that the configuration server can respond to the request message and send the debugging environment to the test equipment.
S530, receiving the debug environment returned by the configuration server and configuring the debug environment.
In the embodiment, the configuration server issues the debugging environment through remote interaction with the test equipment, so that the online dynamic configuration of the debugging environment is realized, and the method is simple and efficient; meanwhile, the developer is not required to send equipment with configured debugging environment, and the cost of the developer is saved. The safety of the test equipment is improved by confirming the test equipment twice through the test equipment identification and the confirmation operation of the developer on the configuration confirmation message, and the configuration of other unrelated test equipment is avoided; in the whole process, a developer needs to carry out confirmation operation on the configuration confirmation message to trigger the issuing of the debugging environment, and other service personnel are not needed to participate, so that the full-process self-service is realized, the time cost is saved, and the test period is shortened.
Optionally, the configuration confirmation message includes an input message of the first authentication information; accordingly, in response to the confirmation operation of the developer on the configuration confirmation message, a request message of the debug environment adapted to the test equipment is sent to the configuration server, including: responding to the operation of inputting the second verification information by the developer, sending a request message comprising the second verification information to the configuration server, and sending a debugging environment to the test equipment when the configuration server judges that the second verification information is matched with the first verification information; the first verification information is sent by the configuration server to a developer corresponding to the developer information, and the developer information and the test equipment identifier have a binding relationship.
Optionally, the configuration confirmation message comprises an authentication message of the developer; accordingly, in response to the confirmation operation of the developer on the configuration confirmation message, a request message of the debug environment adapted to the test equipment is sent to the configuration server, including: responding to the operation of inputting identity information by a developer, and acquiring developer information bound with the test equipment identifier; and if the identity information is matched with the developer information, sending a request message of the debugging environment adapted to the test equipment to the configuration server.
Details of the technical details and effects of this embodiment are not described in detail in the above embodiments and the following embodiments, and are not described here.
Fig. 6 is a block diagram of a configuration apparatus of a device debug environment in an embodiment of the present application, where the embodiment of the present application is applicable to a case of providing a debug environment adapted to a test device, the apparatus is implemented in software and/or hardware, and is specifically configured in a configuration server.
A configuration apparatus 600 of a device debugging environment as shown in fig. 6, comprising: an acquisition module 601, a first transmission module 602, and a second transmission module 603; wherein,,
the obtaining module 601 is configured to obtain a test device identifier.
A first sending module 602, configured to send a configuration confirmation message to the test device corresponding to the test device identifier, so that the test device sends a request message of a debug environment adapted to the test device to the configuration server in response to a confirmation operation of the developer on the configuration confirmation message.
The second sending module 603 is configured to send, in response to the request message, a debug environment to the test device, so that the test device can perform configuration.
In the embodiment, the configuration server issues the debugging environment through remote interaction with the test equipment, so that the online dynamic configuration of the debugging environment is realized, and the method is simple and efficient; meanwhile, the developer is not required to send equipment with configured debugging environment, and the cost of the developer is saved. The safety of the test equipment is improved by confirming the test equipment twice through the test equipment identification and the confirmation operation of the developer on the configuration confirmation message, and the configuration of other unrelated test equipment is avoided; in the whole process, a developer needs to carry out confirmation operation on the configuration confirmation message to trigger the issuing of the debugging environment, and other service personnel are not needed to participate, so that the full-process self-service is realized, the time cost is saved, and the test period is shortened.
Further, the obtaining module 601 is specifically configured to: and receiving a test equipment identifier sent by the terminal, wherein the test equipment identifier is input to the terminal by a developer.
Further, the first sending module 602 includes: the acquisition unit is used for acquiring developer information bound with the test equipment identifier; the first sending unit is used for sending first verification information to a developer corresponding to the developer information; the second sending unit is used for sending an input message of the first verification information to the test equipment corresponding to the test equipment identifier; correspondingly, the second sending module 603 is specifically configured to extract, from the request message, the second verification information input by the developer; and if the second verification information is matched with the first verification information, sending a debugging environment to the test equipment.
Further, the first sending module 602 is specifically configured to: sending an identity verification message of the developer to the test equipment corresponding to the test equipment identifier; the developer information and the test equipment identifier have a binding relationship.
The configuration device of the equipment debugging environment can execute the configuration method of the equipment debugging environment provided by any embodiment of the application, and has the corresponding functional modules and beneficial effects of executing the configuration method of the equipment debugging environment.
Fig. 7 is a block diagram of a configuration apparatus of another device debug environment in an embodiment of the present application, where the embodiment of the present application is applicable to a case where a debug environment is requested from a configuration server, the apparatus is implemented in software and/or hardware, and is specifically configured in a test device.
A configuration apparatus 700 of a device commissioning environment as shown in fig. 7, comprising: a first receiving module 701, a transmitting module 702, and a second receiving module 703; wherein,,
the first receiving module 701 is configured to receive a configuration confirmation message sent by the configuration server.
And the sending module 702 is configured to send a request message of the debug environment adapted to the test device to the configuration server in response to the confirmation operation of the developer on the configuration confirmation message, so that the configuration server sends the debug environment to the test device in response to the request message.
The second receiving module 703 is configured to receive the debug environment returned by the configuration server, and configure the debug environment.
In the embodiment, the configuration server issues the debugging environment through remote interaction with the test equipment, so that the online dynamic configuration of the debugging environment is realized, and the method is simple and efficient; meanwhile, the developer is not required to send equipment with configured debugging environment, and the cost of the developer is saved. The safety of the test equipment is improved by confirming the test equipment twice through the test equipment identification and the confirmation operation of the developer on the configuration confirmation message, and the configuration of other unrelated test equipment is avoided; in the whole process, a developer needs to carry out confirmation operation on the configuration confirmation message to trigger the issuing of the debugging environment, and other service personnel are not needed to participate, so that the full-process self-service is realized, the time cost is saved, and the test period is shortened.
Further, the configuration confirmation message includes an input message of the first authentication information; the sending module 702 is specifically configured to: responding to the operation of inputting the second verification information by the developer, sending a request message comprising the second verification information to the configuration server, and sending a debugging environment to the test equipment when the configuration server judges that the second verification information is matched with the first verification information; the first verification information is sent by the configuration server to a developer corresponding to the developer information, and the developer information and the test equipment identifier have a binding relationship.
Further, the configuration confirmation message includes an authentication message of the developer; the sending module 702 is specifically configured to: responding to the operation of inputting identity information by a developer, and acquiring developer information bound with the test equipment identifier; and if the identity information is matched with the developer information, sending a request message of the debugging environment adapted to the test equipment to the configuration server.
The configuration device of the equipment debugging environment can execute the configuration method of the equipment debugging environment provided by any embodiment of the application, and has the corresponding functional modules and beneficial effects of executing the configuration method of the equipment debugging environment.
According to an embodiment of the present application, the present application also provides a configuration server, a test apparatus, and a readable storage medium.
As shown in fig. 8, a configuration server implementing a configuration method of a device debug environment according to an embodiment of the present application is configured as follows. Configuration servers are intended to represent various forms of digital computers, such as laptops, desktops, workstations, personal digital assistants, servers, blade servers, mainframes, and other appropriate computers. The configuration server may also represent various forms of mobile devices, such as personal digital processing, cellular telephones, smartphones, wearable devices, and other similar computing devices. The components shown herein, their connections and relationships, and their functions, are meant to be exemplary only, and are not meant to limit implementations of the applications described and/or claimed herein.
As shown in fig. 8, the configuration server includes: one or more processors 801, memory 802, and interfaces for connecting the components, including high-speed interfaces and low-speed interfaces. The various components are interconnected using different buses and may be mounted on a common motherboard or in other manners as desired. The processor may process instructions executing within the configuration server, including instructions stored in or on memory to display graphical information of the GUI on an external input/output device, such as a display apparatus coupled to the interface. In other embodiments, multiple processors and/or multiple buses may be used, if desired, along with multiple memories and multiple memories. Also, multiple configuration servers may be connected, with each terminal providing a portion of the necessary operations (e.g., as a server array, a set of blade servers, or a multiprocessor system). One processor 801 is illustrated in fig. 8.
Memory 802 is a non-transitory computer readable storage medium provided by the present application. The memory stores instructions executable by the at least one processor to cause the at least one processor to perform the configuration method of the device debugging environment provided by the application. The non-transitory computer-readable storage medium of the present application stores computer instructions for causing a computer to execute the configuration method of the device debugging environment provided by the present application.
The memory 802 is used as a non-transitory computer readable storage medium, and may be used to store a non-transitory software program, a non-transitory computer executable program, and modules, such as program instructions/modules (e.g., including the acquisition module 601, the first transmission module 602, and the second transmission module 603 shown in fig. 6) corresponding to a configuration method of a device debugging environment in an embodiment of the present application. The processor 801 executes various functional applications of the server and data processing, that is, implements the configuration method of the device debugging environment in the above-described method embodiment, by running non-transitory software programs, instructions, and modules stored in the memory 802.
Memory 802 may include a storage program area that may store an operating system, at least one application program required for functionality, and a storage data area; the storage data area may store data created by use of a configuration server implementing a configuration method of a device debug environment, and the like. In addition, memory 802 may include high-speed random access memory, and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid-state storage device. In some embodiments, memory 802 may optionally include memory remotely located with respect to processor 801, which may be connected via a network to a configuration server that performs the configuration methods of the device debug environment. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
The configuration server performing the configuration method of the device debugging environment may further include: an input device 803 and an output device 804. The processor 801, memory 802, input devices 803, and output devices 804 may be connected by a bus or other means, for example in fig. 8.
The input device 803 may receive input numeric or character information and generate key signal inputs related to user settings and function control of a configuration server performing the configuration method of the device commissioning environment, such as input devices for a touch screen, a keypad, a mouse, a track pad, a touch pad, a pointer stick, one or more mouse buttons, a track ball, a joystick, etc. The output device 804 may include a display apparatus, auxiliary lighting devices (e.g., LEDs), and haptic feedback devices (e.g., vibration motors), among others. The display device may include, but is not limited to, a Liquid Crystal Display (LCD), a Light Emitting Diode (LED) display, and a plasma display. In some implementations, the display device may be a touch screen.
The configuration of the test device is shown in fig. 8, except that the memory 802 is used as a non-transitory computer readable storage medium, and may be used to store a non-transitory software program, a non-transitory computer executable program, and modules, such as program instructions/modules (e.g., including the first receiving module 701, the sending module 702, and the second receiving module 703 shown in fig. 7) corresponding to a configuration method of a device debug environment in an embodiment of the present application. The processor 801 executes various functional applications of the server and data processing, that is, implements the configuration method of the device debugging environment in the above-described method embodiment, by running non-transitory software programs, instructions, and modules stored in the memory 802.
Various implementations of the systems and techniques described here can be realized in digital electronic circuitry, integrated circuitry, application specific ASIC (application specific integrated circuit), computer hardware, firmware, software, and/or combinations thereof. These various embodiments may include: implemented in one or more computer programs, the one or more computer programs may be executed and/or interpreted on a programmable system including at least one programmable processor, which may be a special purpose or general-purpose programmable processor, that may receive data and instructions from, and transmit data and instructions to, a storage system, at least one input device, and at least one output device.
These computing programs (also referred to as programs, software applications, or code) include machine instructions for a programmable processor, and may be implemented in a high-level procedural and/or object-oriented programming language, and/or in assembly/machine language. As used herein, the terms "machine-readable medium" and "computer-readable medium" refer to any computer program product, apparatus, and/or device (e.g., magnetic discs, optical disks, memory, programmable Logic Devices (PLDs)) used to provide machine instructions and/or data to a programmable processor, including a machine-readable medium that receives machine instructions as a machine-readable signal. The term "machine-readable signal" refers to any signal used to provide machine instructions and/or data to a programmable processor.
To provide for interaction with a user, the systems and techniques described here can be implemented on a computer having: a display device (e.g., a CRT (cathode ray tube) or LCD (liquid crystal display) monitor) for displaying information to a user; and a keyboard and pointing device (e.g., a mouse or trackball) by which a user can provide input to the computer. Other kinds of devices may also be used to provide for interaction with a user; for example, feedback provided to the user may be any form of sensory feedback (e.g., visual feedback, auditory feedback, or tactile feedback); and input from the user may be received in any form, including acoustic input, speech input, or tactile input.
The systems and techniques described here can be implemented in a computing system that includes a background component (e.g., as a data server), or that includes a middleware component (e.g., an application server), or that includes a front-end component (e.g., a user computer having a graphical user interface or a web browser through which a user can interact with an implementation of the systems and techniques described here), or any combination of such background, middleware, or front-end components. The components of the system can be interconnected by any form or medium of digital data communication (e.g., a communication network). Examples of communication networks include: local Area Networks (LANs), wide Area Networks (WANs), the internet, and blockchain networks.
The computer system may include a client and a server. The client and server are typically remote from each other and typically interact through a communication network. The relationship of client and server arises by virtue of computer programs running on the respective computers and having a client-server relationship to each other.
It should be appreciated that various forms of the flows shown above may be used to reorder, add, or delete steps. For example, the steps described in the present application may be performed in parallel, sequentially, or in a different order, provided that the desired results of the disclosed embodiments are achieved, and are not limited herein.
The above embodiments do not limit the scope of the present application. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives are possible, depending on design requirements and other factors. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present application should be included in the scope of the present application.

Claims (13)

1. A method for configuring a device debug environment, adapted to a configuration server, comprising:
acquiring a test equipment identifier;
Transmitting a configuration confirmation message to the test equipment corresponding to the test equipment identifier, so that the test equipment responds to the confirmation operation of a developer on the configuration confirmation message and transmits a request message of a debugging environment adapted to the test equipment to the configuration server; the sending a configuration confirmation message to the test equipment corresponding to the test equipment identifier includes: acquiring developer information bound with the test equipment identifier; sending first verification information to a developer corresponding to the developer information; and sending an input message of the first verification information to the test equipment corresponding to the test equipment identifier;
extracting second verification information input by the developer from the request message; and if the second verification information is matched with the first verification information, sending the debugging environment to the test equipment for the configuration of the test equipment.
2. The method of claim 1, wherein the obtaining a test device identification comprises:
and receiving a test equipment identifier sent by a terminal, wherein the test equipment identifier is input to the terminal by the developer.
3. The method according to claim 1 or 2, wherein the sending a configuration confirm message to the test device corresponding to the test device identification comprises:
sending an identity verification message of a developer to the test equipment corresponding to the test equipment identifier;
and the developer information has a binding relation with the test equipment identifier.
4. A configuration method of a device debugging environment is suitable for testing devices, and comprises the following steps:
receiving a configuration confirmation message sent by a configuration server;
responding to the confirmation operation of the developer on the configuration confirmation message, sending a request message of a debugging environment adapted to the test equipment to the configuration server, so that the configuration server can respond to the request message and send the debugging environment to the test equipment; wherein the configuration confirmation message comprises an input message of first verification information;
the responding to the confirmation operation of the developer on the configuration confirmation message, sending a request message of the debugging environment adapted to the test equipment to the configuration server, comprising: responding to the operation of inputting second verification information by the developer, sending a request message comprising the second verification information to the configuration server, so that the configuration server can send the debugging environment to the test equipment when judging that the second verification information is matched with the first verification information; the first verification information is sent to a developer corresponding to developer information by the configuration server, and the developer information and the test equipment identifier have a binding relation;
And receiving the debug environment returned by the configuration server and configuring the debug environment.
5. The method of claim 4, wherein the configuration confirm message comprises an authentication message of the developer;
the responding to the confirmation operation of the developer on the configuration confirmation message, sending a request message of the debugging environment adapted to the test equipment to the configuration server, comprising:
responding to the operation of inputting identity information by the developer, and acquiring developer information bound with the test equipment identifier;
and if the identity information is matched with the developer information, sending a request message of the debugging environment adapted to the test equipment to the configuration server.
6. A configuration apparatus of a device commissioning environment, adapted to configure a server, comprising:
the acquisition module is used for acquiring the test equipment identifier;
a first sending module, configured to send a configuration confirmation message to a test device corresponding to the test device identifier, so that the test device responds to a confirmation operation of a developer on the configuration confirmation message, and sends a request message of a debug environment adapted to the test device to the configuration server; wherein, the first sending module includes:
The acquisition unit is used for acquiring developer information bound with the test equipment identifier;
the first sending unit is used for sending first verification information to a developer corresponding to the developer information; the method comprises the steps of,
the second sending unit is used for sending the input message of the first verification information to the test equipment corresponding to the test equipment identifier;
the second sending module is used for extracting second verification information input by the developer from the request message; and if the second verification information is matched with the first verification information, sending the debugging environment to the test equipment for the configuration of the test equipment.
7. The apparatus of claim 6, wherein the obtaining module is specifically configured to:
and receiving a test equipment identifier sent by a terminal, wherein the test equipment identifier is input to the terminal by the developer.
8. The apparatus of claim 6 or 7, wherein the first sending module is specifically configured to: sending an identity verification message of a developer to the test equipment corresponding to the test equipment identifier; and the developer information has a binding relation with the test equipment identifier.
9. A configuration apparatus of a device commissioning environment, adapted to test a device, comprising:
the first receiving module is used for receiving the configuration confirmation message sent by the configuration server;
a sending module, configured to send a request message of a debug environment adapted to the test device to the configuration server in response to a confirmation operation of the developer on the configuration confirmation message, so that the configuration server sends the debug environment to the test device in response to the request message; wherein the configuration confirmation message comprises an input message of first verification information; the sending module is specifically configured to:
responding to the operation of inputting second verification information by the developer, sending a request message comprising the second verification information to the configuration server, so that the configuration server can send the debugging environment to the test equipment when judging that the second verification information is matched with the first verification information; the first verification information is sent to a developer corresponding to developer information by the configuration server, and the developer information and the test equipment identifier have a binding relation;
the second receiving module is used for receiving the debugging environment returned by the configuration server and configuring the debugging environment.
10. The apparatus of claim 9, wherein the configuration confirmation message comprises an authentication message of the developer;
the sending module is specifically configured to:
responding to the operation of inputting identity information by the developer, and acquiring developer information bound with the test equipment identifier;
and if the identity information is matched with the developer information, sending a request message of the debugging environment adapted to the test equipment to the configuration server.
11. A configuration server, comprising:
at least one processor; and
a memory communicatively coupled to the at least one processor; wherein,,
the memory stores instructions executable by the at least one processor to enable the at least one processor to perform a method of configuring a device debug environment as claimed in any one of claims 1-3.
12. A test apparatus comprising:
at least one processor; and
a memory communicatively coupled to the at least one processor; wherein,,
the memory stores instructions executable by the at least one processor to enable the at least one processor to perform a method of configuring a device debug environment as claimed in any one of claims 4-5.
13. A non-transitory computer readable storage medium storing computer instructions for causing the computer to perform a method of configuring a device debug environment as claimed in any one of claims 1-5.
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